Addresses the importance of EM wave absorbers and details pertinent theory, design, and applications
Demands for various EM-wave absorbers are rapidly increasing along with recent trends toward complicated electromagnetic environments and development of higher-frequency communication equipment, including AI technology. This book provides a broad perspective on electromagnetic wave absorbers, as well as discussion of specific types of absorbers, their advantages and disadvantages, their applications, and performance verification.
Electromagnetic Wave Absorbers: Detailed Theories and Applications presents the theory behind wave absorbers and their practical usage in design of EM-wave absorber necessary particularly for EMC environments, and similar applications. The first half of the book contains the foundations of electromagnetic wave engineering, specifically the transmission line theories necessary for EM-wave absorber analysis, the basic knowledge of reflection, transmission, and absorption of electromagnetic waves, derivation of Maxwell's equations and computer analysis. The second half describes special mediums, absorber application examples, simplified methods of absorber design, autonomously controllable EM-wave absorber, and more. This valuable text:
- Provides detailed explanations of basic theory and applied theory for understanding EM-wave absorbers
- Discusses the material constant measurement methods of EM-wave absorption characteristics that are necessary for designing EM-wave absorbers
- Includes examples of novel EM-wave absorber configurations
Electromagnetic Wave Absorbers: Detailed Theories and Applications is an ideal read for researchers and students concerned with electromagnetic wave engineering. It will also appeal to computer software engineers and electromagnetic field theory researchers.
About the Author: YOUJI KOTSUKA, PHD, is a professor emeritus of Telecommunication Engineering at Tokai University, Tokyo, and a visiting professor at Harvard University, Cambridge, from 1995 to 1996. He has served as chair of the committees on Biological Effect of EM-waves and Medical Application and Measurement Technic in the Institute of Electrical Engineering Japan (IEE). He is a chair of the Japan Technical Committee on EMC in the Institute of Electronics, Information and Communication Engineers (IEICE). He is also a chair in IEEE-EMC, Japan Chapter. He is a co-editor of the November 2000 special issue on Medical Applications and Biological Effect of RF/ Microwaves, part of IEEE Transactions on Microwave Theory and Techniques. He has authored and co-authored books such as EMC Handbook and the Wiley title RF/Microwave Interaction with Biological Tissues.